[4-(Trans-4-N-Propylcyclohexyl)Phenyl]Boronic Acid: A Key Intermediate for OLEDs and Pharmaceuticals
Discover the high-purity building block essential for cutting-edge electronic and pharmaceutical innovations.
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[4-(Trans-4-N-Propylcyclohexyl)Phenyl]Boronic Acid
This high-quality boronic acid derivative serves as a critical component in the synthesis of advanced materials, particularly for the burgeoning OLED display technology and as a versatile pharmaceutical intermediate. Its unique structure facilitates efficient coupling reactions, making it invaluable for creating complex organic molecules.
- Source high purity [4-(Trans-4-N-Propylcyclohexyl)Phenyl]Boronic Acid CAS 146862-02-4 manufacturers for your critical projects.
- Unlock new possibilities in OLED material synthesis with this high-purity intermediate.
- Leverage the versatility of pharmaceutical intermediate boronic acid derivatives in drug discovery.
- Ensure reliability and quality when you buy [4-(Trans-4-N-Propylcyclohexyl)Phenyl]Boronic Acid sample for testing.
Advantages Offered
Exceptional Purity
With a guaranteed purity of 95%min, this compound ensures reliable and reproducible results in your chemical synthesis processes, supporting the development of high-performance OLEDs.
Material Synthesis Versatility
Its application as an OLED material intermediate CAS 146862-02-4 highlights its importance in creating efficient and durable organic light-emitting diodes.
Stable and Reliable
Stable under normal temperature and pressure, this chemical offers ease of handling and storage, crucial for industrial and laboratory applications.
Key Applications
OLED Materials
This compound is a vital building block for advanced OLED displays, contributing to enhanced color purity and device efficiency, a key area for high purity organic synthesis chemicals.
Pharmaceutical Intermediates
Utilized as a crucial pharmaceutical intermediate boronic acid, it aids in the development of new therapeutic agents and complex drug molecules.
Organic Synthesis
Its reactivity and structural features make it an indispensable tool for chemists in various organic chemistry research and development projects.
Photoelectric Materials
Beyond OLEDs, it finds applications in other photoelectric devices, showcasing its potential in the broader field of advanced materials.